General Approach to N6,C5'-Difunctionalization of Adenosine

Potentiality of Nucleoside as Antioxidant by Analysis on Oxidative Susceptibility, Drug Discovery, and Synthesis

Nucleosides are sensitive sites towards oxidations caused by endogenous and exogenous oxidative resources, and a large number of the produced DNA lesions behave as pathogenesis eventually. We herein analyze oxidative modes of nucleosides and structure- activity relationships of some clinical nucleoside drugs. Together with our previous findings on the inhibitory effects of nucleoside derivatives against DNA oxidation, all these results imply a possibility for nucleoside to be a new member in the family of antioxidants. Then, some novel synthetic routines of nucleoside analogs are collected to reveal the applicability in the construction of nucleoside antioxidants. Therefore, it is reasonable to envision that the nucleoside antioxidant will be a novel topic in the research of both nucleosides and antioxidants.

α-Carbonyl Rh-Carbenoid Initiated Cascade Assembly of Diazobarbiturates with Alkylidene Pyrazolones for Synthesis of Spirofuropyrimidines

Catalyzed by Rh2(esp)2 (10 mol%) and (±)-BINAP (20 mol%) in DCE at 80 °C, the cascade assembly between diazobarbiturates and alkylidene pyrazolones proceeded readily and produced spiro-furopyrimidines in 38-96% chemical yields. The chemical structure of the prepared spirofuro-pyrimidines was firmly confirmed by X-ray diffraction analysis.

Copper Catalyzed Three-Component Ullmann C-S Coupling in PEG for the Synthesis of 6-Aryl/alkylthio-purines

To tackle the environmental unfriendly issue in existing synthesis strategies for 6-substitued thiopurine derivatives, such as poor step economy, frequent use of malodorous organic sulfur starting materials, toxic organic solvents, and equivalent dosage of base, we have developed a CuI-catalyzed base-free three-component Ullmann C-S coupling synthetic strategy, featured using inorganic salt Na2S as the sulfur source and nontoxic PEG-600 as the solvent. The newly developed strategy is particularly effective for the synthesis of 6-arylthiopurines. The high catalytic efficiency in PEG-600 can be rationalized by the high soluble ability of CuI catalyst, likely due to the presence of multiple oxygen coordination sites in PEG.

Two short approaches to the COVID-19 drug β-D-N4-hydroxycytidine and its prodrug molnupiravir

Molnupiravir, the prodrug for β-D-N4-hydroxycytidine (NHC), is marketed by Merck as Lagevrio™ against mild-moderate COVID-19, under FDA emergency use authorization. It is the first oral drug against the disease. This work describes two synthetic approaches to NHC and molnupiravir by amide activation in uridine with a peptide-coupling agent and with a 4-chloropyrimidinone nucleoside intermediate.

The practical acetylation of nucleosides using acetic anhydride/acetic acid as a reusable solvent

The highly practical acetylation of free nucleosides is achieved using acetic anhydride/acetic acid as a reusable solvent and acetylating regent. A series of nucleosides, including ribosyl, deoxyribosyl, arabinosyl, acyclic and pyranosyl, and many clinical drugs were acetylated efficiently, even on large scale (200 g).